Patent Application
20140197689
The present invention relates to a power supply that provides longer lifespan of battery modules and particularly to a power supply that shuts down a main power supply system and switches to a redundant power supply system to supply power at a preset time to avoid the battery modules in a power saturated state for a prolonged duration that might reduce the lifespan thereof.
Nowadays large scale processing systems for databases or servers or the like generally have a power supply with redundant power to provide stable power for operation for a prolonged period of time. A conventional power supply having redundant power, such as U.S. Pat. No. 7,495,415, mainly includes a main power supply module and a redundant power module. The main power supply module converts and outputs a conversion power in normal conditions. The redundant power module receives the conversion power in the normal conditions and saves the conversion power as redundant power. In the event that abnormal conditions occurred the main power supply module outputs the redundant power to stabilize the power supply.
Moreover, the general redundant power module usually saves electric power through a battery element. When the main power supply module is in the normal power supply conditions, the battery element is charged continuously and maintains in a power saturated state. Only when the main power supply module becomes abnormal, the battery element discharges. For the battery element that is maintained at the power saturated state for a prolonged duration, the active material filled inside changes and cannot provide desirable energy saving effect, and could result in decreasing of the lifespan. This makes the redundant power module unable to provide the redundant power as long as desired and impairs the uninterruptible power supply effect.
The primary object of the present invention is to provide a power supply with a main power supply system shut down at a preset time interval and a redundant power supply system switched to allow a battery module therein to discharge for a short period of time to avoid the battery module from being maintained at a power saturated state for a prolonged duration.
To achieve the foregoing object, the present invention provides a power supply capable of increasing the lifespan of battery modules. The power supply includes a main power supply system, a redundant power supply system and a state switch control module. The main power supply system is electrically connected to an external power source to convert and output a first power. The redundant power supply system includes at least one battery module to receive and save the first power and output a second power parallel with the first power. The state switch control module includes a power supply switch unit to obtain a first electric potential of the first power and a second electric potential of the second power, and a state switch unit connected to the main power supply system to output a first signal and a second signal alternatively at a preset time interval to the main power supply system. The power supply switch unit has a first power supply state in which the state switch unit outputs the first signal to allow the main power supply system to output the first power to charge the battery module, and a second power supply state in which the state switch unit outputs the second signal to stop the main power supply system from outputting the first power to charge the battery module, and the battery module is switched to output the second power when the first electric potential is lower than the second electric potential.
In one embodiment the power supply switch unit includes an electric potential comparison unit to compare the first electric potential with the second electric potential to generate a comparison signal, and a power switch electrically connected to the electric potential comparison unit to get the comparison signal and control the power supply switch unit to enter the first power supply state or second power supply state.
In another embodiment the redundant power supply system includes a charge unit to receive the first power and charge the first power in the battery module.
In yet another embodiment the main power supply system further includes a rectification filter unit connected to the external power source, a power factor correction unit connected to the rectification filter unit, a transformer, a pulse width control unit, a switch element and a rectification output unit. In addition, the state switch unit is connected to the pulse width control unit or power factor correction unit to control operation of the main power supply system.
Through the structure set forth above, compared with the conventional techniques, the invention provides many advantages, notably:
The battery module has a longer lifespan. The state switch unit outputs the second signal at the preset time interval to make the main power supply system stop outputting the first power, namely the power supply switch unit is driven from the first power supply state to enter the second power supply state. At the second power supply state, the battery module discharges the second power; after another preset time interval elapses, the state switch unit stops outputting the second signal but starts outputting the first signal so that the power supply switch unit is switched from the second power supply state to the first power supply state again. Thereby the battery module can be charged and discharge at desirable time without being maintained at the power saturated state for a prolonged duration that might result in decrease of the lifespan thereof.
The foregoing, as well as additional objects, features and advantages of the invention will be more readily apparent from the following detailed description, which proceeds with reference to the accompanying drawings.
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The state switch control module 13 includes a power supply switch unit 131 connected to the main power supply system 11 and redundant power supply system 12, and a state switch unit 132 connected to the main power supply system 11. The power supply switch unit 131 receives the first electric potential of the first power from the main power supply system 11 and the second electric potential of the second power from the redundant power supply system 12, and further compares the first electric potential with the second electric potential. When the first electric potential is higher than the second electric potential, the power supply switch unit 131 outputs the first power. If the first electric potential is lower than the second electric potential, the power supply switch unit 131 makes the battery module 121 output the second power. Also referring to
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As a conclusion, the invention provides a power supply that can increase the lifespan of battery modules. It has a state switch control module to control the duty state of a main power supply system. The state switch control module has a power supply switch unit and a state switch unit. The power supply switch unit has a first power supply state in which the state switch unit outputs a first signal to make the main power supply system output a first power to charge a battery module, and a second power supply state in which the state switch unit outputs a second signal to make the main power supply system stop outputting the first power, and the battery module outputs the second power as the first electric potential of the first power is lower than the second electric potential of the second power. Thus the battery module of the redundant power supply system can be avoided from being maintained at the power saturated state constantly that might result in decreasing of the lifespan thereof.
While the preferred embodiments of the invention have been set forth for the purpose of disclosure, they are not the limitations of the invention, modifications of the disclosed embodiments of the invention as well as other embodiments thereof may occur to those skilled in the art. Accordingly, the appended claims are intended to cover all embodiments which do not depart from the spirit and scope of the invention.
